CN109949625B - Can contrast trainer of chinese and western aerobics exercises difference - Google Patents

Abstract

The invention provides a training device capable of comparing the difference of traditional and western aerobics exercises, which comprises a lifting stage, a first main camera and a second main camera which are arranged at the front end of the lifting stage, and a first main camera, a second main camera, a left auxiliary camera and a right auxiliary camera, combining the positioning coordinates with the training person posture data extracted separately in real time according to frame images to form combined frame data, transmitting the combined frame data to a holographic device, generating holographic frame sequence data by the holographic device according to the combined frame data, mapping the corresponding relation between the positioning coordinates and the holographic frame sequence data, inputting the holographic frame sequence data and the corresponding relation between the positioning coordinates and the holographic frame sequence data into 3D rendering software, forming a holographic image source after rendering is finished, synchronously processing the holographic image source and the reference H parameter according to frames, and projecting the holographic image source and the reference H parameter to a left display screen or a right display screen.

Description

Can contrast trainer of chinese and western aerobics exercises difference

Technical Field

The invention relates to a training device, in particular to a training device capable of comparing the difference of traditional Chinese and western aerobics exercises.

Background

Due to the large cultural difference between China and the West, the artistic expression of China is different. Taking aerobics exercises as an example, the aerobics exercises of the Chinese and western countries have obvious difference, the aerobics culture and characteristics are inevitably and more exchanged and blended under the global era background, the aerobics culture and characteristics are formed by unifying democratics and the universities, the aerobics culture and the universities are blended into the mainstream of the world sports culture, the aerobics exercises can be listened to the whole world, the characteristics of the universities are inevitably existed, and only if people know more differences of the aerobics exercises of the Chinese and western countries and add the traditional Chinese culture to perfectly combine and complement the advantages of the aerobics of the Chinese and western countries.

In the prior art, devices for performing comparison training on Chinese and western exercises, such as the following apparatuses, are disclosed in the publication: "CN 104933905A" discloses a can contrast teaching device of chinese and western aerobics exercises difference, including frame and base be equipped with branch on the base be equipped with the frame on the branch on the base one side on the frame is equipped with several show fence, show fence on the frame includes first show fence, second show fence and third show fence the opposite side of frame be equipped with the corresponding contrast fence in several show fence, the contrast fence includes first contrast show fence, second contrast show fence and third contrast show fence be equipped with the baffle between show fence and the contrast fence, show fence and contrast fence constitute by bottom plate and display panel be equipped with control panel and data jack on the bottom plate of show fence and contrast fence respectively be equipped with chinese aerobics exercises history on the display panel on the first show fence be equipped with the contrast chinese aerobics exercises history on the display panel on the first contrast fence corresponding with first show fence The western aerobics history of the history, the display panel on the second display column is provided with a middle aerobics representative figure, the display panel on the second comparison column corresponding to the second display column is provided with a western aerobics representative figure for comparing the middle aerobics representative figure, the display panel on the third display column is provided with main characteristics of the middle aerobics, the display panel on the third comparison column corresponding to the third display column is provided with main characteristics of the western aerobics for comparing the main characteristics of the middle aerobics, one side of the comparison column and one side of the display column are provided with cover plates matched with the comparison column and the display column, the cover plates are provided with press switches, the upper end of the frame is provided with a connecting rod, the connecting rod on the frame is provided with a top cover, the top cover is internally provided with projection equipment, and the projection equipment are in data connection with the control panel and a data jack, the projection equipment front end on the top cap is equipped with the baffle be equipped with the world map on the frame surface one side of base is equipped with the power cord, the power cord carries out the electricity with projection equipment and control panel and is connected the bottom surface of base is equipped with the several pulley.

Referring to the above description, the above teaching apparatus only shows the fitness grooves in the middle and west, and cannot form a real action show, so that the trainers or visitors can directly feel the difference of the actual fitness exercises.

Traditional stage construction only enables visitors to feel the difference of practical aerobics exercises, and performers or trainers cannot feel the difference of Chinese and Western aerobics exercises.

Disclosure of Invention

In order to solve the technical problems, the invention mainly aims to provide a training device capable of comparing the difference of traditional Chinese and western aerobics exercises.

The technical scheme is as follows:

a training device capable of comparing the difference between the traditional Chinese and western aerobics exercises comprises

A lifting stage, a first main camera and a second main camera which are arranged at the front end of the lifting stage,

a night scene, a left light supplementing device and a right light supplementing device are respectively and correspondingly arranged at the rear side and the two sides of the lifting stage,

the night scene, the left light supplementing device and the right light supplementing device are respectively and correspondingly arranged on the rear bracket, the left bracket and the right bracket, the rear bracket is provided with a first auxiliary camera and a second auxiliary camera, the left bracket and the right bracket are correspondingly provided with a left auxiliary camera and a right auxiliary camera,

a shading wall is arranged along the outer sides of the rear support, the left support and the right support, two display screen mounting plates are arranged at the front end of the shading wall, and a left display screen and a right display screen are respectively arranged on the inner surface and the outer surface of each display screen mounting plate;

the first main camera or the second main camera is used for correspondingly capturing video data of trainees on the left side and the right side of the lifting stage in real time, sending the acquired video data to the image processor module for real-time processing, and performing separation extraction on the posture data of the trainees;

the first auxiliary camera or the second auxiliary camera is used for correspondingly acquiring the real-time positioning data of the trainees on the left side and the right side, synchronously sending the positioning data to the image processor module for real-time processing, acquiring the real-time positioning coordinates of the posture data of the trainees,

the left side of the auxiliary camera or the right side of the auxiliary camera is used for acquiring real-time side height H data of trainees on the left side and the right side, the real-time side height H data is synchronously sent to the image processor module for real-time processing, reference H parameters of the side height H data are acquired,

combining the positioning coordinates and the training person body state data extracted in real time in a separated mode according to frame images to form combined frame data, transmitting the combined frame data to a holographic image device, generating holographic frame sequence data by the holographic image device according to the combined frame data, mapping the corresponding relation between the positioning coordinates and the holographic frame sequence data, inputting the holographic frame sequence data and the corresponding relation between the positioning coordinates and the holographic frame sequence data into 3D rendering software, forming a holographic image source after rendering is finished, synchronously processing the holographic image source and a reference H parameter according to frames, and projecting the holographic image source and the reference H parameter to a left display screen or a right display screen.

Further, the positioning coordinates are confirmed according to the following method:

and the first auxiliary camera or the second auxiliary camera acquires the horizontal projection of the trainer on the lifting stage, the coordinates at two ends of the horizontal projection are taken as reference, the average value of the coordinates at the two ends in the horizontal direction is taken, and the default average value is consistent with the gravity center of the trainer.

Further, the reference H parameter is confirmed as follows:

the method comprises the steps of taking a lifting stage as a reference base point of the height, marking the edge Y-axis coordinate of the lifting stage, obtaining the height H of a trainer on the lifting stage by the left side of an auxiliary camera or the right side of the auxiliary camera, taking the Y-axis coordinate as a starting point, obtaining a positioning coordinate corresponding to the height H, and calibrating the height H parameter of the trainer on the lifting stage in real time according to a conversion formula of the set height H and the positioning coordinate.

Furthermore, the lifting stage comprises a base, a lifting groove is formed in the middle of the base, a first lifting mechanism and a second lifting mechanism are arranged in the lifting groove, a left stage and a right stage are respectively arranged on the first lifting mechanism and the second lifting mechanism, and a connecting bridge is arranged between the left stage and the right stage.

Further, first elevating system includes first pedestal, sets up the first articulated mast on first pedestal, sets up the first lift cylinder on first articulated mast, left side stage setting is on the first supporting beam of first articulated mast upper end setting.

Further, the second lifting mechanism comprises a second support base, a second hinge rod and a third hinge rod which are arranged on the second support base, a second lifting cylinder and a third lifting cylinder are correspondingly arranged on the second hinge rod and the third hinge rod, the right stage is arranged on a second supporting beam arranged at the upper end of the second hinge rod, a bridge support beam is arranged on the third hinge rod, a connecting bridge is arranged on the bridge support beam, linkage rods are arranged on the second hinge rod and the third hinge rod, a driving mechanism is arranged on the second support base, and the driving mechanism is respectively connected with the first lifting cylinder, the second lifting cylinder and the third lifting cylinder.

Furthermore, the front end face of the rear support is in a twilight view, the upper end of the rear support is provided with a horizontal mounting beam, a horizontal transmission rail is arranged on the horizontal mounting beam, at least one first auxiliary camera and a second auxiliary camera are arranged on the transmission rail, and the horizontal transmission rail is driven by a driving motor arranged at the lower end of the rear support through a belt wheel.

Further, the left support comprises a plurality of left fixing columns, a left cross beam is arranged at the upper ends of the left fixing columns, a left transmission guide rail is arranged along the left cross beam, the left side of at least one auxiliary camera is arranged on the left transmission guide rail, the left transmission guide rail is driven by a left driving motor, and a left light supplementing device is arranged on the left fixing columns.

Further, the right support comprises a plurality of right fixing columns, a right cross beam is arranged at the upper ends of the right fixing columns, a right transmission guide rail is arranged along the right cross beam, at least one auxiliary camera is arranged on the right transmission guide rail on the right side, the right transmission guide rail is driven by a right driving motor, and a right light supplementing device is arranged on the right fixing columns.

Further, left light filling device and right light filling device structure are the same, all include rolling bearing, and this rolling bearing installs on left fixed column or right fixed column, the last light filling frame that is fixed with of rolling bearing is provided with the light filling lamp plate on the light filling frame.

According to the invention, the stage is set up, the images of Chinese and western trainees needing to be compared are acquired, and the holographic projections are projected on the left display screen and the right display screen, and the display screens are arranged on two sides, so that visitors below the stage can observe the difference of the Chinese and western trainees in real time, and the trainees can observe the training difference of the other trainee by projecting the projections in a crossed manner. Therefore, the difference of the Chinese and western aerobics exercises can be felt in person, and the trainers and the visitors can be taught on site.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial schematic structural view of the present invention;

FIG. 3 is a schematic view of the overall stent of the present invention;

fig. 4 is a schematic structural view of the elevating stage of the present invention;

fig. 5 is a partial structural schematic view of the elevating stage of the present invention;

FIG. 6 is a schematic diagram of the present invention for determining the positioning coordinates and the reference H parameter.

Detailed Description

The present invention will now be described in detail with reference to the drawings and specific embodiments, wherein the exemplary embodiments and descriptions of the present invention are provided to explain the present invention without limiting the invention thereto.

Referring to fig. 1 to 5, the present invention provides a training device for comparing the difference between the traditional and the western exercises, comprising

Alifting stage 3, a firstmain camera 100 and a secondmain camera 200 arranged at the front end of thelifting stage 3,

a twilight 4, a leftlight supplement device 7 and a rightlight supplement device 6 are correspondingly arranged at the rear side and the two sides of thelifting stage 3 respectively,

the twilight scene 4, the leftlight supplement device 7 and the rightlight supplement device 6 are respectively and correspondingly arranged on therear bracket 5, the left bracket and the right bracket, therear bracket 5 is provided with a firstauxiliary camera 101 and a secondauxiliary camera 102, the left bracket and the right bracket are correspondingly provided with a leftauxiliary camera 102 and a rightauxiliary camera 202,

ashading wall 1 is arranged along the outer sides of therear bracket 5, the left bracket and the right bracket, two display screen mounting plates are arranged at the front end of the shadingwall 1, and aleft display screen 500 and aright display screen 501 are respectively arranged on the inner surface and the outer surface of each display screen mounting plate;

the firstmain camera 100 or the secondmain camera 200 is used for correspondingly capturing video data of trainees on the left side and the right side of thelifting stage 3 in real time, sending the acquired video data to the image processor module for real-time processing, and performing separation extraction on posture data of the trainees;

the firstauxiliary camera 101 or the secondauxiliary camera 102 is used for correspondingly acquiring real-time positioning data of trainees on the left side and the right side, synchronously sending the positioning data to the image processor module for real-time processing, acquiring real-time positioning coordinates of the posture data of the trainees,

theleft side 102 or theright side 202 of the auxiliary camera is used for acquiring the real-time side height H data of trainees on the left side and the right side, synchronously sending the real-time side height H data to the image processor module for real-time processing, acquiring a reference H parameter of the side height H data,

combining the positioning coordinates and the training person body state data extracted in real time in a separated mode according to frame images to form combined frame data, transmitting the combined frame data to a holographic image device, generating holographic frame sequence data by the holographic image device according to the combined frame data, mapping the corresponding relation between the positioning coordinates and the holographic frame sequence data, inputting the holographic frame sequence data and the corresponding relation between the positioning coordinates and the holographic frame sequence data into 3D rendering software, forming a holographic image source after rendering is finished, synchronously processing the holographic image source and a reference H parameter according to frames, and projecting the holographic image source and the reference H parameter to aleft display screen 500 or aright display screen 501.

Referring to fig. 6, the location coordinates are confirmed as follows:

the firstauxiliary camera 101 or the secondauxiliary camera 102 acquires a horizontal projection of the trainer on the lifting stage, and takes coordinates at two ends of the horizontal projection as a reference, and takes an average value of the coordinates at the two ends in the horizontal direction, wherein the average value is consistent with the gravity center of the trainer by default. This is done for the purpose of obtaining an accurate projected point, in which the projection of the coordinate of the trainer in the horizontal direction is a straight line when thefirst sub camera 101 or thesecond sub camera 102 acquires the coordinate of the trainer. When a trainer trains, the trainer moves back and forth left and right on the stage, the projection of the hands, the feet, the head and the trunk is different due to different actions, but the gravity center of the human body can be always confirmed no matter how the trainer moves and does any action. The center of gravity of a trainer is used as a reference, but the center of gravity of a human body is difficult to obtain.

The reference H parameter is confirmed as follows:

the method comprises the steps of taking a lifting stage as a reference base point of the height, marking the edge Y-axis coordinate of the lifting stage, obtaining the height H of a trainer on the lifting stage by the left side of an auxiliary camera or the right side of the auxiliary camera, taking the Y-axis coordinate as a starting point, obtaining a positioning coordinate corresponding to the height H, and calibrating the height H parameter of the trainer on the lifting stage in real time according to a conversion formula of the set height H and the positioning coordinate.

In the above, the height of the trainer is different according to the distance from the camera, taking the height of the trainer as an example, when the distance from the camera is far, the value of the height H is small, and when the distance is near, the value of the height H is large, but actually, the height H is not changed, in the invention, the Y-axis coordinate is taken as a starting point, namely (0, Y, 0) when Y is changed, the traditional photographic technology cannot know whether the movement is performed or the related action is performed so that the Y value is changed, in the invention, a conversion formula of the height H and the positioning coordinate is preset, the Y value obtained by the change of the movement is not changed, and only when the different actions are performed, the Y value is changed, so that the synchronism of the holographic projection can be accurately determined during the output.

In the above, thelifting stage 3 includes abase 300, a lifting groove provided in the middle of thebase 300, a first lifting mechanism and a second lifting mechanism provided in the lifting groove, the first lifting mechanism and the second lifting mechanism are respectively provided with aleft stage 301 and aright stage 302, and a connecting bridge is provided between theleft stage 301 and theright stage 302.

The first lifting mechanism comprises a first support seat, a first hinged rod arranged on the first support seat, and afirst lifting cylinder 306 arranged on the first hinged rod, wherein theleft stage 301 is arranged on afirst support beam 305 arranged at the upper end of the first hinged rod.

The second lifting mechanism comprises asecond support base 308, asecond hinge rod 309 and a third hinge rod which are arranged on thesecond support base 308, asecond lifting cylinder 310 and a third lifting cylinder are correspondingly arranged on thesecond hinge rod 309 and the third hinge rod, theright stage 302 is arranged on a second supportingbeam 313 arranged at the upper end of thesecond hinge rod 309, a bridge supporting beam is arranged on the third hinge rod, the connecting bridge is arranged on the bridge supporting beam, linkage rods are arranged on the second hinge rod and the third hinge rod, a driving mechanism is arranged on the second support base, the driving mechanism is respectively connected with the first lifting cylinder, the second lifting cylinder and the third lifting cylinder, and ahinge mechanism 312 is arranged on thesecond hinge rod 309.

In the above, the rear end face of the rear bracket is at twilight view 4, the upper end of the rear bracket is provided with a horizontal mounting beam, the horizontal mounting beam is provided with ahorizontal transmission rail 55, thehorizontal transmission rail 55 is at least provided with a firstauxiliary camera 101 and a secondauxiliary camera 102, and thehorizontal transmission rail 55 is driven by a driving motor arranged at the lower end of the rear bracket through a belt wheel.

The left support comprises a plurality of left fixing columns 8, aleft cross beam 50 is arranged at the upper ends of the left fixing columns 8, a left transmission guide rail is arranged along theleft cross beam 50, the left 102 of the at least one auxiliary camera is arranged on the left transmission guide rail, the left transmission guide rail is driven by aleft driving motor 53, and a leftlight supplementing device 7 is arranged on each left fixing column.

The right support comprises a plurality of right fixing columns 9, a right cross beam is arranged at the upper ends of the right fixing columns 9, a right transmission guide rail is arranged along the right cross beam, at least one auxiliary camera is arranged on the right transmission guide rail on the right side, the right transmission guide rail is driven by aright driving motor 54, and a rightlight supplementing device 6 is arranged on the right fixing columns.

Leftlight filling device 7 is the same with rightlight filling device 6 structure, all includes rolling bearing, and this rolling bearing installs on left fixed column or right fixed column, the last light filling frame that is fixed with of rolling bearing is provided with the light filling lamp plate on the light filling frame.

According to the invention, the stage is set up, the images of Chinese and western trainees needing to be compared are acquired, and the holographic projections are projected on the left display screen and the right display screen, and the display screens are arranged on two sides, so that visitors below the stage can observe the difference of the Chinese and western trainees in real time, and the trainees can observe the training difference of the other trainee by projecting the projections in a crossed manner. Therefore, the difference of the Chinese and western aerobics exercises can be felt in person, and the trainers and the visitors can be taught on site.

The technical solutions disclosed in the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained in the present document by using specific embodiments, and the descriptions of the embodiments are only used to help understanding the principles of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the embodiments of the present invention, there may be variations in the specific implementation manners and application ranges, and in summary, the content of the present description should not be construed as a limitation to the present invention.

Claims (10)

1. A training device capable of comparing the difference between the traditional Chinese and western aerobics exercises is characterized by comprising

A lifting stage, a first main camera and a second main camera which are arranged at the front end of the lifting stage,

a night scene, a left light supplementing device and a right light supplementing device are respectively and correspondingly arranged at the rear side and the two sides of the lifting stage,

the night scene, the left light supplementing device and the right light supplementing device are respectively and correspondingly arranged on the rear bracket, the left bracket and the right bracket, the rear bracket is provided with a first auxiliary camera and a second auxiliary camera, the left bracket and the right bracket are correspondingly provided with a left auxiliary camera and a right auxiliary camera,

a shading wall is arranged along the outer sides of the rear support, the left support and the right support, two display screen mounting plates are arranged at the front end of the shading wall, and a left display screen and a right display screen are respectively arranged on the inner surface and the outer surface of each display screen mounting plate;

the first main camera or the second main camera is used for correspondingly capturing video data of trainees on the left side and the right side of the lifting stage in real time, sending the acquired video data to the image processor module for real-time processing, and performing separation extraction on the posture data of the trainees;

the first auxiliary camera or the second auxiliary camera is used for correspondingly acquiring the real-time positioning data of the trainees on the left side and the right side, synchronously sending the positioning data to the image processor module for real-time processing, acquiring the real-time positioning coordinates of the posture data of the trainees,

the left side of the auxiliary camera or the right side of the auxiliary camera is used for acquiring real-time side height H data of trainees on the left side and the right side, the real-time side height H data is synchronously sent to the image processor module for real-time processing, reference H parameters of the side height H data are acquired,

combining the positioning coordinates and the training person body state data extracted in real time in a separated mode according to frame images to form combined frame data, transmitting the combined frame data to a holographic image device, generating holographic frame sequence data by the holographic image device according to the combined frame data, mapping the corresponding relation between the positioning coordinates and the holographic frame sequence data, inputting the holographic frame sequence data and the corresponding relation between the positioning coordinates and the holographic frame sequence data into 3D rendering software, forming a holographic image source after rendering is finished, synchronously processing the holographic image source and a reference H parameter according to frames, and projecting the holographic image source and the reference H parameter to a left display screen or a right display screen.

2. The training device capable of comparing the difference between the traditional and the western exercises as claimed in claim 1, wherein the positioning coordinates are confirmed as follows:

and the first auxiliary camera or the second auxiliary camera acquires the horizontal projection of the trainer on the lifting stage, the coordinates at two ends of the horizontal projection are taken as reference, the average value of the coordinates at the two ends in the horizontal direction is taken, and the default average value is consistent with the gravity center of the trainer.

3. The training device capable of comparing the difference between the traditional and western exercises according to claim 1, wherein the reference H parameter is confirmed as follows:

the method comprises the steps of taking a lifting stage as a reference base point of the height, marking the edge Y-axis coordinate of the lifting stage, obtaining the height H of a trainer on the lifting stage by the left side of an auxiliary camera or the right side of the auxiliary camera, taking the Y-axis coordinate as a starting point, obtaining a positioning coordinate corresponding to the height H, and calibrating the height H parameter of the trainer on the lifting stage in real time according to a conversion formula of the set height H and the positioning coordinate.

4. The training device capable of comparing the difference between the traditional Chinese and western aerobics exercises as claimed in claim 1, wherein the lifting stage comprises a base, a lifting groove is arranged in the middle of the base, a first lifting mechanism and a second lifting mechanism are arranged in the lifting groove, a left stage and a right stage are respectively arranged on the first lifting mechanism and the second lifting mechanism, and a connecting bridge is arranged between the left stage and the right stage.

5. A training device capable of comparing the difference between the traditional Chinese and western exercises as claimed in claim 4, wherein the first lifting mechanism comprises a first support base, a first hinge rod arranged on the first support base, a first lifting cylinder arranged on the first hinge rod, and the left stage is arranged on a first support beam arranged at the upper end of the first hinge rod.

6. A training device capable of comparing the difference between the traditional Chinese and western aerobics exercises as claimed in claim 4, wherein the second lifting mechanism comprises a second support base, a second hinge rod and a third hinge rod arranged on the second support base, a second lifting cylinder and a third lifting cylinder are correspondingly arranged on the second hinge rod and the third hinge rod, the right stage is arranged on a second support beam arranged at the upper end of the second hinge rod, a bridge support beam is arranged on the third hinge rod, the connecting bridge is arranged on the bridge support beam, linkage rods are arranged on the second hinge rod and the third hinge rod, a driving mechanism is arranged on the second support base, and the driving mechanism is respectively connected with the first lifting cylinder, the second lifting cylinder and the third lifting cylinder.

7. The training device for comparing the difference between the traditional Chinese and western aerobics exercises as claimed in claim 1, wherein the front end face of the rear bracket is at the night scenery, the upper end of the rear bracket is provided with a horizontal mounting beam, the horizontal mounting beam is provided with a horizontal transmission rail, at least one first auxiliary camera and one second auxiliary camera are arranged on the transmission rail, and the horizontal transmission rail is driven by a driving motor arranged at the lower end of the rear bracket through a belt wheel.

8. The training device capable of comparing the difference between the traditional Chinese and western aerobics exercises as claimed in claim 1, wherein the left support comprises a plurality of left fixing columns, a left cross beam is arranged at the upper ends of the left fixing columns, a left transmission guide rail is arranged along the left cross beam, at least one auxiliary camera is arranged on the left transmission guide rail, the left transmission guide rail is driven by a left driving motor, and a left light supplementing device is arranged on the left fixing columns.

9. The training device capable of comparing the difference between the traditional Chinese and western aerobics exercises as claimed in claim 1, wherein the right support comprises a plurality of right fixing columns, a right cross beam is arranged at the upper ends of the right fixing columns, a right transmission guide rail is arranged along the right cross beam, at least one auxiliary camera is arranged on the right transmission guide rail on the right side, the right transmission guide rail is driven by a right driving motor, and a right light supplementing device is arranged on the right fixing columns.

10. The training device capable of comparing the difference between the traditional Chinese and western aerobics exercises as claimed in claim 1, wherein the left light supplement device and the right light supplement device are identical in structure and comprise rotating bearings, the rotating bearings are mounted on the left fixing column or the right fixing column, a light supplement frame is fixed on the rotating bearings, and a light supplement lamp panel is arranged on the light supplement frame.

Images